View clinical trials related to Gait Disorders, Neurologic.
Filter by:To determine the effects of motor imagery technique on lower limb function among stroke patient. To determine the effects of motor imagery technique on lower limb spasticity among stroke patients. To determine the effects of motor imagery technique on gait among stroke patients. To determine the effects of motor imagery technique on quality of life among stroke patients
This cross-sectional study aims to investigate the prevalence of post-stroke visual dependence, and the effects of visual dependence on balance and gait. It also determines whether visual dependence could differentiate stroke patients with a history of falls from without.
Our project is based on the fundamental hypothesis that epidural spinal cord stimulation (SCS) improves Freezing of gait (FOG) in patients with Parkinson's disease. In eight patients implantation of electrodes for SCS at the epidural thoracic level will be performed under general anaesthesia. Evaluation of gait and motor symptoms will be performed with and without stimulation, after a 3-month period for each of the stimulation conditions.This is a pilot, single centre, prospective, randomized, double blinded, cross-over study.
In our study, we tested the hypothesis of the safe effect applicability of motor training in the immersion high-tech polymodal VR system not only on the parameters of balance, gait, and motor status of the patient, but also on his cognitive functions and mental health in patients with a degree of disability no more than 3 points on a scale Rankin.
It has been shown that movements of the upper extremity during walking are associated with lower extremity mobility. For example, when walking at a slow pace, the swing frequency of the arms is 2: 1 compared to the legs, while the limb frequency decreases to 1: 1 as the walking speed increases. That is, in order to walk fast, the lower extremity takes advantage of the acceleration of the upper extremity [1]. It is known that the muscles of the shoulder girdle also support this oscillating movement in the upper extremity during walking. Thus, it is thought that blocking or restricting shoulder girdle and arm movements during walking increases energy expenditure and heart rate, decreases gait stability, and decreases stride length and walking speed [2,3]. However, the possible effects that the upper limb can aid in movement include decreasing vertical displacement of the center of mass, decreasing angular momentum or decreasing ground reaction moment, and increasing walking stability [2-4]. In these studies that restrict arm swing, methods such as crossing the arms on the chest [5], holding the arm in a sling or pocket [6], or fixing the arms to the trunk with a bandage [7] were used. Studies have generally been conducted on healthy individuals or on the biomechanical model, and arm swing during walking has not been investigated in pathologies with only upper extremity involvement (upper extremity fractures, Juvenile Idiopathic Arthritis) without any problems with lower extremity and/or walking. This study is aimed to reveal the effects of decreased upper extremity functionality on walking and balance.
Cerebral palsy (CP) is a non-progressive disturbance in the development of movement and posture that occurs in the prenatal or postnatal period, causing activity limitations. Most children and adolescents with CP experience limitations in their walking skills. Restrictions in the walking ability of children with CP are an important issue for both parents and healthcare professionals involved in their treatment. The evaluation of walking is of great importance in terms of determining the effectiveness of the physiotherapy program, shaping the program, planning orthopedic and surgical applications, and determining the effectiveness, especially in children with CP who have walking potential. In the literature, easy-to-use, valid and reliable observational gait analysis that can evaluate gait pathologies and clinical gait in children with CP are emphasized. These measurements are of great importance in clinical practice.The ability of backward walking gives the child a different task than normal, allowing the observation of body perception, trunk stability provided by anterior-posterior co-contractions, balance, correction and protective reactions.
Background: Improving walking ability is one of the major concerns in therapeutic interventions for children with cerebral palsy. Aim: determine the relation between the weight distributed on both lower limb and speed during walking.
In order to achieve collaborative patient-centered rehabilitation in Parkinson's disease, detailed evaluation of walking and balance in evaluating the perceived difficulty in daily life is important to evaluate the progression of the disease and its response to treatments. In the literature, there are many scales that evaluate balance and functional performance in Parkinson Disease. However there is no validity and reliability study of Dubousset Function Test developed to evaluate balance and functional performance of Parkinson Disease. For this reason, the aim of study is to examine the validity and reliability of Dubousset Function Test in Parkinson Disease.
When people walk, their ankle joints help to hold them upright and move them forward. Ankle braces are often given to people who have had a stroke to help their ankle joints work properly. The investigators have developed a method to design and make a special type of ankle brace that allows the investigators to control every characteristic of the ankle brace, allowing the investigators to customize the ankle brace to fit and function just the way the investigators want it to. The investigators think that ankle braces customized to meet the needs of each individual person will help the participants walk better. The investigators have also developed a prescription model that tells the investigators how to customize these ankle braces to address different levels of two common impairments experienced by people post stroke -decreased ability to move the ankle joint and weakened calf muscles. The purpose of this study is to test the prescription model to see if wearing the ankle brace customized based on the prescription model improves people's ability to walk. To accomplish this goal, the investigators will first measure each person's ability to move his/her ankle joint and the strength of his/her calf muscles. The investigators will put this information in to the prescription model to determine how to customize the ankle brace for each person. The investigators will then use the method developed to make the customized ankle brace. Finally, the investigators will measure how each person walks in the ankle brace customized just for the participants. This study will allow the investigators to validate and/or refine the prescription model and teach the investigators how persons post-stroke adapt to walking in ankle braces with different characteristics.
In this study, the investigators aimed to evaluate the effects of exercise on body weight-supported treadmill in stroke patients on gait parameters, activity, body functions and quality of life, and to determine whether it has an effect on balance when applied in addition to conventional therapy.